Assays for the identification of inhibitors targeting specific translational steps.

Letizia Brandi, John Dresios, Claudio O Gualerzi
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引用次数: 16

Abstract

While bacterial protein synthesis is the target of about half of the known antibiotics, the great structural-functional complexity of the translational machinery still offers remarkable opportunities for identifying novel and specific inhibitors of unexploited targets. We designed a knowledge-based in vitro translation assay to identify inhibitors selectively targeting the bacterial or the yeast translational apparatus, preferentially blocking the early steps of protein synthesis. Using a natural-like, "universal" model mRNA and cell-free extracts prepared from Eschericha coli, Saccharomyces cerevisiae, and HeLa cells, we were able to translate, with comparable yields in the three systems, the immunogenic peptide encoded by this "universal" mRNA. The immuno-enzymatic quantification of the translated peptide in the presence of a potential inhibitor can identify a selective bacterial or fungal inhibitor inactive in the human system. When applied to the high-throughput screening (HTS) of a library of approximately 25,000 natural products, this assay led to the identification of two novel and specific inhibitors of bacterial translation.

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鉴定针对特定翻译步骤的抑制剂的试验。
虽然细菌蛋白质合成是大约一半已知抗生素的靶标,但翻译机制的巨大结构-功能复杂性仍然为识别未开发靶标的新型和特异性抑制剂提供了非凡的机会。我们设计了一种基于知识的体外翻译试验,以确定选择性靶向细菌或酵母翻译装置的抑制剂,优先阻断蛋白质合成的早期步骤。使用天然的“通用”模型mRNA和从大肠杆菌、酿酒酵母和HeLa细胞中制备的无细胞提取物,我们能够翻译由这种“通用”mRNA编码的免疫原性肽,并且在三种系统中产量相当。在潜在抑制剂存在的情况下,翻译肽的免疫酶定量可以识别在人体系统中无活性的选择性细菌或真菌抑制剂。当应用于大约25,000个天然产物库的高通量筛选(HTS)时,该分析导致鉴定出两种新的特异性细菌翻译抑制剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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